Glycan heterogeneity as a cause of the persistent fraction in HIV-1 neutralization
Glycan heterogeneity as a cause of the persistent fraction in HIV-1 neutralization
Neutralizing antibodies (NAbs) to multiple epitopes on the HIV-1-envelope glycoprotein (Env) have been isolated from infected persons. The potency of NAbs is measured more often than the size of the persistent fraction of infectivity at maximum neutralization, which may also influence preventive efficacy of active or passive immunization and the therapeutic outcome of the latter. Many NAbs neutralize HIV-1 CZA97.012, a clone of a Clade-C isolate, to ~100%. But here NAb PGT151, directed to a fusion-peptide epitope, left a persistent fraction of 15%. NAb PGT145, ligating the Env-trimer apex, left no detectable persistent fraction. The divergence in persistent fractions was further analyzed by depletion of pseudoviral populations of the most PGT151- and PGT145-reactive virions. Thereby, neutralization by the non-depleting NAb increased, whereas neutralization by the depleting NAb decreased. Furthermore, depletion by PGT151 increased sensitivity to autologous neutralization by sera from rabbits immunized with soluble native-like CZA97.012 trimer: substantial persistent fractions were reduced. NAbs in these sera target epitopes comprising residue D411 at the V4-β19 transition in a defect of the glycan shield on CZA97.012 Env. NAb binding to affinity-fractionated soluble native-like CZA97.012 trimer differed commensurately with neutralization in analyses by ELISA and surface plasmon resonance. Glycan differences between PGT151- and PGT145-purified trimer fractions were then demonstrated by mass spectrometry, providing one explanation for the differential antigenicity. These differences were interpreted in relation to a new structure at 3.4-Å resolution of the soluble CZA97.012 trimer determined by cryo-electron microscopy. The trimer adopted a closed conformation, refuting apex opening as the cause of reduced PGT145 binding to the PGT151-purified form. The evidence suggests that differences in binding and neutralization after trimer purification or pseudovirus depletion with PGT145 or PGT151 are caused by variation in glycosylation, and that some glycan variants affect antigenicity through direct effects on antibody contacts, whereas others act allosterically.
Animals, Antibodies, Neutralizing, Antigens, Viral, Cryoelectron Microscopy, Epitopes, HIV Antibodies, HIV Infections, HIV-1, Polysaccharides/metabolism, Rabbits, env Gene Products, Human Immunodeficiency Virus
Ringe, Rajesh P.
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Colin, Philippe
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Ozorowski, Gabriel
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Allen, Joel D.
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Yasmeen, Anila
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Seabright, Gemma E.
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Lee, Jeong Hyun
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Antanasijevic, Aleksandar
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Rantalainen, Kimmo
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Ketas, Thomas
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Moore, John P.
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Ward, Andrew B.
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Crispin, Max
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Klasse, P.J.
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October 2023
Ringe, Rajesh P.
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Colin, Philippe
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Ozorowski, Gabriel
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Allen, Joel D.
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Yasmeen, Anila
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Seabright, Gemma E.
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Lee, Jeong Hyun
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Antanasijevic, Aleksandar
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Rantalainen, Kimmo
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Ketas, Thomas
be22ffd5-bef3-46c4-92fe-db4466a2a098
Moore, John P.
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Ward, Andrew B.
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Crispin, Max
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Klasse, P.J.
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Ringe, Rajesh P., Colin, Philippe, Ozorowski, Gabriel, Allen, Joel D., Yasmeen, Anila, Seabright, Gemma E., Lee, Jeong Hyun, Antanasijevic, Aleksandar, Rantalainen, Kimmo, Ketas, Thomas, Moore, John P., Ward, Andrew B., Crispin, Max and Klasse, P.J.
(2023)
Glycan heterogeneity as a cause of the persistent fraction in HIV-1 neutralization.
PLoS Pathogens, 19 (10), [e1011601].
(doi:10.1371/journal.ppat.1011601).
Abstract
Neutralizing antibodies (NAbs) to multiple epitopes on the HIV-1-envelope glycoprotein (Env) have been isolated from infected persons. The potency of NAbs is measured more often than the size of the persistent fraction of infectivity at maximum neutralization, which may also influence preventive efficacy of active or passive immunization and the therapeutic outcome of the latter. Many NAbs neutralize HIV-1 CZA97.012, a clone of a Clade-C isolate, to ~100%. But here NAb PGT151, directed to a fusion-peptide epitope, left a persistent fraction of 15%. NAb PGT145, ligating the Env-trimer apex, left no detectable persistent fraction. The divergence in persistent fractions was further analyzed by depletion of pseudoviral populations of the most PGT151- and PGT145-reactive virions. Thereby, neutralization by the non-depleting NAb increased, whereas neutralization by the depleting NAb decreased. Furthermore, depletion by PGT151 increased sensitivity to autologous neutralization by sera from rabbits immunized with soluble native-like CZA97.012 trimer: substantial persistent fractions were reduced. NAbs in these sera target epitopes comprising residue D411 at the V4-β19 transition in a defect of the glycan shield on CZA97.012 Env. NAb binding to affinity-fractionated soluble native-like CZA97.012 trimer differed commensurately with neutralization in analyses by ELISA and surface plasmon resonance. Glycan differences between PGT151- and PGT145-purified trimer fractions were then demonstrated by mass spectrometry, providing one explanation for the differential antigenicity. These differences were interpreted in relation to a new structure at 3.4-Å resolution of the soluble CZA97.012 trimer determined by cryo-electron microscopy. The trimer adopted a closed conformation, refuting apex opening as the cause of reduced PGT145 binding to the PGT151-purified form. The evidence suggests that differences in binding and neutralization after trimer purification or pseudovirus depletion with PGT145 or PGT151 are caused by variation in glycosylation, and that some glycan variants affect antigenicity through direct effects on antibody contacts, whereas others act allosterically.
Text
journal.ppat.1011601
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More information
Accepted/In Press date: 5 October 2023
e-pub ahead of print date: 30 October 2023
Published date: October 2023
Additional Information:
Funding Information:
Funding: We are grateful for the following funding of this study: The National Institute of Allergy and Infectious Diseases of the National Institutes of Health R01 AI036082 (PJK and JPM), P01 AI110657 (PJK, JPM, ABW), and The International AIDS Vaccine Initiative (IAVI) through grant INV-008352/OPP1153692 funded by the Bill and Melinda Gates Foundation (M.C.). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Publisher Copyright:
Copyright: © 2023 Ringe et al.
Keywords:
Animals, Antibodies, Neutralizing, Antigens, Viral, Cryoelectron Microscopy, Epitopes, HIV Antibodies, HIV Infections, HIV-1, Polysaccharides/metabolism, Rabbits, env Gene Products, Human Immunodeficiency Virus
Identifiers
Local EPrints ID: 484822
URI: http://eprints.soton.ac.uk/id/eprint/484822
ISSN: 1553-7366
PURE UUID: 188b92d6-254b-458b-b364-9ee6774506fa
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Date deposited: 22 Nov 2023 17:43
Last modified: 18 Mar 2024 04:03
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Contributors
Author:
Rajesh P. Ringe
Author:
Philippe Colin
Author:
Gabriel Ozorowski
Author:
Anila Yasmeen
Author:
Gemma E. Seabright
Author:
Jeong Hyun Lee
Author:
Aleksandar Antanasijevic
Author:
Kimmo Rantalainen
Author:
Thomas Ketas
Author:
John P. Moore
Author:
Andrew B. Ward
Author:
P.J. Klasse
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